Identification of Critical Amino Acids Conferring Lethality in VopK, a Type III Effector Protein of Vibrio cholerae: Lessons from Yeast Model System

Bankapalli, Leela Krishna; Mishra, Rahul Chandra; Singh, Balvinder; Raychaudhuri, Saumya

doi:10.1371/journal.pone.0141038

Cited by 8 publications

(10 citation statements)

References 41 publications

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“…Previously, yeast has been used as a model organism to study the activity of several other V. cholerae T3SS effector proteins (Tripathi et al, 2010, 2013; Bankapalli et al, 2015; Seward et al, 2015). …”

Section: Discussionmentioning

confidence: 99%

“…Yeast growth assays were performed as described earlier (Tripathi et al, 2010 ; Bankapalli et al, 2015 ). Briefly, overnight cultures of all recombinant strains in selective SC Raf medium were diluted and grown again in same media at 30°C until exponential phase (OD 600 ~ 0.8–1.0).…”

Section: Methodsmentioning

confidence: 99%

“…Growth was monitored after 60–70 h at 30°C and photographed accordingly. Liquid growth assay was done as described earlier (Bankapalli et al, 2015 ). For yeast viability plating assay (cfu), recombinant stains carrying VopE or its variants were grown overnight in selective SC Raf media.…”

Section: Methodsmentioning

confidence: 99%

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VopE, a Vibrio cholerae Type III Effector, Attenuates the Activation of CWI-MAPK Pathway in Yeast Model System

Bankapalli

Mishra

Raychaudhuri

2017

Front. Cell. Infect. Microbiol.

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VopE, a mitochondrial targeting T3SS effector protein of Vibrio cholerae, perturbs innate immunity by modulating mitochondrial dynamics. In the current study, ectopic expression of VopE was found to be toxic in a yeast model system and toxicity was further aggravated in the presence of various stressors. Interestingly, a VopE variant lacking predicted mitochondrial targeting sequence (MTS) also exhibited partial lethality in the yeast system. With the aid of yeast genetic tools and different stressors, we have demonstrated that VopE and its derivative VopEΔMTS modulate cell wall integrity (CWI-MAPK) signaling pathway and have identified several critical residues contributing to the lethality of VopE. Furthermore, co-expression of two effectors VopEΔMTS and VopX, interfering with the CWI-MAPK cellular pathway can partially suppress the VopX mediated yeast growth inhibition. Taken together, these results suggest that VopE alters signaling through the CWI-MAPK pathway, and demonstrates the usefulness of yeast model system to gain additional insights on the functionality of VopE.

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Section: Discussionmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

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VopE, a Vibrio cholerae Type III Effector, Attenuates the Activation of CWI-MAPK Pathway in Yeast Model System

Bankapalli

Mishra

Raychaudhuri

2017

Front. Cell. Infect. Microbiol.

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“…In AM-19226, no 3' encoded effector is required for infant mouse colonization, but in an infant rabbit model of infection, moderate reductions in the incidence and severity of diarrhea as well as a slight decrease in colonization is observed during infection with VopK or VopY deletion strains [18]. In yeast, VopK toxicity is dependent on residues in the C-terminal domain postulated to comprise an MCF1-SHE serine peptidase domain, although peptidase activity was not detected and motif conservation is imprecise [80].…”

Section: Core Encoded Effectorsmentioning

confidence: 99%

Vibrio variations on a type three theme

Miller

Tomberlin

Dziejman

2019

Current Opinion in Microbiology

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Mounting evidence suggests that Type 3 Secretions Systems (T3SS) are widespread among Vibrio species, and are present in strains isolated from diverse sources such as human clinical infections, environmental reservoirs, and diseased marine life. Experiments evaluating V. parahaemolyticus and V. cholerae T3SS mediated virulence suggest that Vibrio T3SS pathogenicity islands have a tripartite composition. A conserved "core" region encodes functions essential for colonization and disease in vivo, including modulation of innate immune signaling pathways and actin dynamics, whereas regions flanking core sequences are variable among strains and encode effector proteins performing a diverse array of activities. Characterizing novel functions associated with Vibriospecific effectors is therefore essential for understanding how vibrios employ T3SS mechanisms to cause disease in a broad range of hosts and how T3SS island composition potentially defines species specific disease.

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“…Previous studies using O39 serogroup strain AM-19226, which lacks the TCP and CT, have shown that T3SS activity is required for colonization and disease in murine and rabbit animal models of infection (24,25). T3SS genomic island-encoded, translocated proteins have been identified and named Vops, and several Vops have been assigned functions (25)(26)(27)(28)(29)(30).…”

Section: Importancementioning

confidence: 99%

Regulation by ToxR-Like Proteins Converges on vttR _B Expression To Control Type 3 Secretion System-Dependent Caco2-BBE Cytotoxicity in Vibrio cholerae

et al. 2016

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Genes carried on the type 3 secretion system (T3SS) pathogenicity island of Vibrio cholerae non-O1/non-O139 serogroup strain AM-19226 must be precisely regulated in order for bacteria to cause disease. Previously reported results showed that both T3SS function and the presence of bile are required to cause Caco2-BBE cell cytotoxicity during coculture with strain AM-19226. We therefore investigated additional parameters affecting in vitro cell death, including bacterial load and the role of three transmembrane transcriptional regulatory proteins, VttR A , VttR B , and ToxR. VttR A and VttR B are encoded on the horizontally acquired T3SS genomic island, whereas ToxR is encoded on the ancestral chromosome. While strains carrying deletions in any one of the three transcriptional regulatory genes are unable to cause eukaryotic cell death, the results of complementation studies point to a hierarchy of regulatory control that converges on vttR B expression. The data suggest both that ToxR and VttR A act upstream of VttR B and that modifying the level of either vttR A or vttR B expression can strongly influence T3SS gene expression. We therefore propose a model whereby T3SS activity and, hence, in vitro cytotoxicity are ultimately regulated by vttR B expression. IMPORTANCEIn contrast to O1 and O139 serogroup V. cholerae strains that cause cholera using two main virulence factors (toxin-coregulated pilus [TCP] and cholera toxin [CT]), O39 serogroup strain AM-19226 uses a type 3 secretion system as its principal virulence mechanism. Although the regulatory network governing TCP and CT expression is well understood, the factors influencing T3SS-associated virulence are not. Using an in vitro mammalian cell model to investigate the role of three ToxR-like transmembrane transcriptional activators in causing T3SS-dependent cytotoxicity, we found that expression levels and a hierarchical organization were important for promoting T3SS gene expression. Furthermore, our results suggest that horizontally acquired, ToxR-like proteins act in concert with the ancestral ToxR protein to orchestrate T3SS-mediated pathogenicity. P athogenic bacteria must effectively control the expression of virulence factors in order to achieve productive infection. As a waterborne pathogen, Vibrio cholerae senses and responds to signals from two distinct environments, the aquatic reservoir and the human host, requiring appropriate temporospatial changes in gene expression. Epidemic-causing O1 and O139 serogroup strains use the ToxR-ToxT regulatory hierarchy to modulate the expression of genes encoding factors responsible for colonization (toxin-coregulated pilus [TCP]) and diarrhea (cholera toxin [CT]) (1, 2). Whereas toxR is an ancestral gene found in all V. cholerae strains, toxT is carried on horizontally acquired Vibrio pathogenicity island 1 (VPI-1), which encodes the TCP. ToxR can directly activate transcription from the toxT promoter (3, 4). VPI-1 also encodes the TcpPH proteins, which can increase toxT transcription and are required for...

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Identification of Critical Amino Acids Conferring Lethality in VopK, a Type III Effector Protein of Vibrio cholerae: Lessons from Yeast Model System

Cited by 8 publications

References 41 publications

VopE, a Vibrio cholerae Type III Effector, Attenuates the Activation of CWI-MAPK Pathway in Yeast Model System

VopE, a Vibrio cholerae Type III Effector, Attenuates the Activation of CWI-MAPK Pathway in Yeast Model System

Vibrio variations on a type three theme

Regulation by ToxR-Like Proteins Converges on vttR _B Expression To Control Type 3 Secretion System-Dependent Caco2-BBE Cytotoxicity in Vibrio cholerae

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Identification of Critical Amino Acids Conferring Lethality in VopK, a Type III Effector Protein of Vibrio cholerae: Lessons from Yeast Model System

Cited by 8 publications

References 41 publications

VopE, a Vibrio cholerae Type III Effector, Attenuates the Activation of CWI-MAPK Pathway in Yeast Model System

VopE, a Vibrio cholerae Type III Effector, Attenuates the Activation of CWI-MAPK Pathway in Yeast Model System

Vibrio variations on a type three theme

Regulation by ToxR-Like Proteins Converges on vttR B Expression To Control Type 3 Secretion System-Dependent Caco2-BBE Cytotoxicity in Vibrio cholerae

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Product

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Regulation by ToxR-Like Proteins Converges on vttR _B Expression To Control Type 3 Secretion System-Dependent Caco2-BBE Cytotoxicity in Vibrio cholerae